pywal/wal

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2017-06-20 06:23:13 +02:00
#!/usr/bin/env python
"""
wal - Generate and change colorschemes on the fly.
Created by Dylan Araps
"""
import argparse
import glob
import os
import pathlib
import random
import re
import shutil
import subprocess
import sys
__version__ = "0.1"
# Internal variables.
COLOR_COUNT = 16
CACHE_DIR = pathlib.Path("%s%s" % (os.path.expanduser("~"), "/.cache/wal/"))
class ColorFormats(object): # pylint: disable=too-few-public-methods
"""Store colors in various formats."""
x_colors = []
sequences = []
# ARGS {{{
def get_args():
"""Get the script arguments."""
description = "wal - Generate colorschemes on the fly"
arg = argparse.ArgumentParser(description=description)
# Add the args.
arg.add_argument('-c', action='store_true',
help='Delete all cached colorschemes.')
arg.add_argument('-i', metavar='"/path/to/img.jpg"',
help='Which image or directory to use.')
arg.add_argument('-n', action='store_true',
help='Skip setting the wallpaper.')
arg.add_argument('-o', metavar='"script_name"',
help='External script to run after "wal".')
arg.add_argument('-q', action='store_true',
help='Quiet mode, don\'t print anything.')
arg.add_argument('-r', action='store_true',
help='Reload current colorscheme.')
arg.add_argument('-t', action='store_true',
help='Fix artifacts in VTE Terminals. \
(Termite, xfce4-terminal)')
return arg.parse_args()
def process_args(args):
"""Process args"""
# If no args were passed.
if not len(sys.argv) > 1:
print("error: wal needs to be given arguments to run.")
print(" Refer to 'wal -h' for more info.")
exit(1)
# -q
if args.q:
sys.stdout = open('/dev/null', 'w')
sys.stderr = open('/dev/null', 'w')
# -c
if args.c:
shutil.rmtree(CACHE_DIR / "schemes")
# -r
if args.r:
reload_colors(args.t)
# -i
if args.i:
image = str(get_image(args.i))
# Get the colors.
colors = get_colors(image)
# Set the wallpaper.
if not args.n:
set_wallpaper(image)
return colors
# }}}
# COLORSCHEME GENERATION {{{
def get_image(img):
"""Validate image input."""
image = pathlib.Path(img)
# Check if the user has Imagemagick installed.
if not shutil.which("convert"):
print("error: imagemagick not found, exiting...")
print("error: wal requires imagemagick to function.")
exit(1)
if image.is_file():
wal_img = image
elif image.is_dir():
rand = random.choice(os.listdir(image))
rand_img = "%s/%s" % (str(image), rand)
rand_img = pathlib.Path(rand_img)
if rand_img.is_file():
wal_img = rand_img
print("image: Using image", wal_img)
return wal_img
def imagemagick(color_count, img):
"""Call Imagemagick to generate a scheme."""
colors = subprocess.Popen(["convert", img, "+dither", "-colors",
str(color_count), "-unique-colors", "txt:-"],
stdout=subprocess.PIPE)
return colors.stdout.readlines()
def gen_colors(img):
"""Generate a color palette using imagemagick."""
# Generate initial scheme.
raw_colors = imagemagick(COLOR_COUNT, img)
# If imagemagick finds less than 16 colors, use a larger source number
# of colors.
index = 0
while len(raw_colors) - 1 <= COLOR_COUNT:
index += 1
raw_colors = imagemagick(COLOR_COUNT + index, img)
print("colors: Imagemagick couldn't generate a", COLOR_COUNT,
"color palette, trying a larger palette size",
COLOR_COUNT + index)
# Remove the first element, which isn't a color.
del raw_colors[0]
# Create a list of hex colors.
colors = [re.search('#.{6}', str(col)).group(0) for col in raw_colors]
return colors
def get_colors(img):
"""Generate a colorscheme using imagemagick."""
# Cache file.
cache_file = CACHE_DIR / "schemes" / img.replace('/', '_')
cache_file = pathlib.Path(cache_file)
# Cache the wallpaper name.
with open(CACHE_DIR / "wal", 'w') as file:
file.write("%s\n" % (img))
if cache_file.is_file():
colors = read_colors(cache_file)
else:
print("colors: Generating a colorscheme...")
# Generate the colors.
colors = gen_colors(img)
colors = sort_colors(colors)
# Cache the colorscheme.
with open(cache_file, 'w') as file:
file.write("\n".join(colors))
print("colors: Generated colorscheme")
return colors
def sort_colors(colors):
"""Sort the generated colors."""
sorted_colors = []
sorted_colors.append(colors[0])
sorted_colors.append(colors[9])
sorted_colors.append(colors[10])
sorted_colors.append(colors[11])
sorted_colors.append(colors[12])
sorted_colors.append(colors[13])
sorted_colors.append(colors[14])
sorted_colors.append(colors[15])
sorted_colors.append(set_grey(colors))
sorted_colors.append(colors[9])
sorted_colors.append(colors[10])
sorted_colors.append(colors[11])
sorted_colors.append(colors[12])
sorted_colors.append(colors[13])
sorted_colors.append(colors[14])
sorted_colors.append(colors[15])
return sorted_colors
# }}}
# SEND SEQUENCES {{{
def set_special(index, color):
"""Build the escape sequence for special colors."""
ColorFormats.sequences.append("\\033]%s;%s\\007" % (str(index), color))
if index == 10:
ColorFormats.x_colors.append("URxvt*foreground: %s\n" % (color))
ColorFormats.x_colors.append("XTerm*foreground: %s\n" % (color))
elif index == 11:
ColorFormats.x_colors.append("URxvt*background: %s\n" % (color))
ColorFormats.x_colors.append("XTerm*background: %s\n" % (color))
elif index == 12:
ColorFormats.x_colors.append("URxvt*cursorColor: %s\n" % (color))
ColorFormats.x_colors.append("XTerm*cursorColor: %s\n" % (color))
def set_color(index, color):
"""Build the escape sequence we need for each color."""
ColorFormats.x_colors.append("*.color%s: %s\n" % (str(index), color))
ColorFormats.x_colors.append("*color%s: %s\n" % (str(index), color))
ColorFormats.sequences.append("\\033]4;%s;%s\\007" % (str(index), color))
def set_grey(colors):
"""Set a grey color based on brightness of color0"""
return {
0: "#666666",
1: "#666666",
2: "#757575",
3: "#999999",
4: "#999999",
5: "#8a8a8a",
6: "#a1a1a1",
7: "#a1a1a1",
8: "#a1a1a1",
9: "#a1a1a1",
}.get(int(colors[0][1]), colors[7])
def send_sequences(colors, vte):
"""Send colors to all open terminals."""
set_special(10, colors[15])
set_special(11, colors[0])
set_special(12, colors[15])
set_special(13, colors[15])
set_special(14, colors[0])
# This escape sequence doesn't work in VTE terminals.
if not vte:
set_special(708, colors[0])
# Create the sequences.
for num, color in enumerate(colors):
set_color(num, color)
# Set a blank color that isn't affected by bold highlighting.
set_color(66, colors[0])
# Decode the string.
sequences = ''.join(ColorFormats.sequences)
sequences = bytes(sequences, "utf-8").decode("unicode_escape")
# Send the sequences to all open terminals.
terminals = glob.glob("/dev/pts/[0-9]*")
terminals.append(CACHE_DIR / "sequences")
for term in terminals:
with open(term, 'w') as file:
file.write(sequences)
print("colors: Set terminal colors")
# }}}
# WALLPAPER SETTING {{{
def set_wallpaper(img):
"""Set the wallpaper."""
uname = os.uname
if shutil.which("feh"):
subprocess.Popen(["feh", "--bg-fill", img])
elif shutil.which("nitrogen"):
subprocess.Popen(["nitrogen", "--set-zoom-fill", img])
elif shutil.which("bgs"):
subprocess.Popen(["bgs", img])
elif shutil.which("hsetroot"):
subprocess.Popen(["hsetroot", "-fill", img])
elif shutil.which("habak"):
subprocess.Popen(["habak", "-mS", img])
elif uname == "Darwin":
subprocess.Popen(["osascript", "-e", "'tell application \"Finder\" to set \
desktop picture to POSIX file\'" + img + "\'"])
else:
subprocess.Popen(["gsettings", "set", "org.gnome.desktop.background",
"picture-uri", img])
print("wallpaper: Set the new wallpaper")
return 0
# }}}
# EXPORT COLORS {{{
def export_plain(colors):
"""Export colors to a plain text file."""
with open(CACHE_DIR / "colors", 'w') as file:
file.write('\n'.join(colors))
def export_rofi(colors):
"""Append rofi colors to the x_colors list."""
ColorFormats.x_colors.append("rofi.color-window: %s, %s, %s\n"
% (colors[0], colors[0], colors[10]))
ColorFormats.x_colors.append("rofi.color-normal: %s, %s, %s, %s, %s\n"
% (colors[0], colors[15], colors[0],
colors[10], colors[0]))
ColorFormats.x_colors.append("rofi.color-active: %s, %s, %s, %s, %s\n"
% (colors[0], colors[15], colors[0],
colors[10], colors[0]))
ColorFormats.x_colors.append("rofi.color-urgent: %s, %s, %s, %s, %s\n"
% (colors[0], colors[9], colors[0],
colors[9], colors[15]))
def export_emacs(colors):
"""Set emacs colors."""
ColorFormats.x_colors.append("emacs*background: %s\n" % (colors[0]))
ColorFormats.x_colors.append("emacs*foreground: %s\n" % (colors[15]))
def export_xrdb(colors):
"""Export colors to xrdb."""
x_colors = ''.join(colors)
# Write the colors to the file.
with open(CACHE_DIR / "xcolors", 'w') as file:
file.write(x_colors)
# Merge the colors into the X db so new terminals use them.
subprocess.Popen(["xrdb", "-merge", CACHE_DIR / "xcolors"])
print("export: Exported xrdb colors.")
def export_colors(colors):
"""Export colors in various formats."""
export_plain(colors)
# X based colors.
export_rofi(colors)
export_emacs(colors)
export_xrdb(ColorFormats.x_colors)
# }}}
# OTHER FUNCTIONS {{{
def read_colors(color_file):
"""Read colors from a file"""
with open(color_file) as file:
colors = file.readlines()
# Strip newlines from each list element.
colors = [x.strip() for x in colors]
return colors
def reload_colors(vte):
"""Reload colors."""
with open(CACHE_DIR / "sequences") as file:
sequences = file.read()
# If vte mode was used, remove the problem sequence.
if vte:
sequences = re.sub(r'\]708;\#.{6}', '', sequences)
# Decode the string.
sequences = bytes(sequences, "utf-8").decode("unicode_escape")
print(sequences, end='')
quit()
# }}}
def main():
"""Main script function."""
# Create colorscheme dir.
pathlib.Path(CACHE_DIR / "schemes").mkdir(parents=True, exist_ok=True)
# Get the args.
args = get_args()
colors = process_args(args)
# Set the colors.
send_sequences(colors, args.t)
export_colors(colors)
# -o
if args.o:
subprocess.Popen(["nohup", args.o],
stdout=open('/dev/null', 'w'),
stderr=open('/dev/null', 'w'),
preexec_fn=os.setpgrp)
return 0
main()